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Abrasion Resistance of Concrete01:23

Abrasion Resistance of Concrete

133
Abrasion resistance is an essential characteristic of concrete that determines its durability and longevity under various wear conditions. Concrete surfaces are vulnerable to different types of abrasion. For instance, surfaces may wear down due to the constant movement of vehicles or be eroded by solids carried in water, as seen in concrete canal linings. Specific tests are conducted to measure the abrasion resistance of concrete.
One such test is the revolving disc test, where three plates...
133
Fatigue01:21

Fatigue

181
Fatigue occurs when materials rupture under repeated or fluctuating loads, even at stress levels far below their static breaking strength. It typically results in brittle failure, even for ductile materials. It is a critical consideration in designing machines and structural components subjected to repetitive or varying loads. The nature of these loadings can range from fluctuating loads like unbalanced pump impellers causing vibrations to repeatedly bending a thin steel rod wire back and forth...
181
Residual Stresses in Circular Shafts01:10

Residual Stresses in Circular Shafts

175
In materials that exhibit elastic and plastic behavior, known as elastoplastic materials, residual stresses can accumulate when these materials experience plastic deformation. This deformation arises from either high levels of shearing stress or significant strains. Residual stresses are internal stresses that persist within a material after removing the external force causing deformation. This phenomenon is demonstrated when observing the behavior of a shaft under torque; notably, the...
175

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相关实验视频

Updated: Jul 2, 2025

Atomic Force Microscopy Cantilever-Based Nanoindentation: Mechanical Property Measurements at the Nanoscale in Air and Fluid
08:58

Atomic Force Microscopy Cantilever-Based Nanoindentation: Mechanical Property Measurements at the Nanoscale in Air and Fluid

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基于尖结构的尖端的定量磨损评估.

Ke Xu1, Houwen Leng1

  • 1School of Electrical & Control Engineering, Shenyang Jianzhu University, Shenyang 110168, China.

Beilstein journal of nanotechnology
|February 21, 2024
PubMed
概括
此摘要是机器生成的。

这项研究引入了一种评估原子力显微镜 (AFM) 尖端磨损的新方法. 优化扫描参数,如频率和振幅,最大限度地减少尖端的磨损,确保高质量的AFM图像.

关键词:
原子力显微镜的原子力显微镜.估计的尖端直径.扫描参数扫描参数尖端的重建重建的重建.穿戴尖端的穿戴方式

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Atomic Force Microscopy Cantilever-Based Nanoindentation: Mechanical Property Measurements at the Nanoscale in Air and Fluid
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科学领域:

  • 材料科学 材料科学 材料科学
  • 表面科学是一门学科.
  • 纳米技术纳米技术

背景情况:

  • 原子力显微镜 (AFM) 对于纳米级成像至关重要.
  • AFM尖端的磨损会影响图像质量和测量准确度.
  • 了解扫描参数对尖端磨损的影响对于可靠的AFM分析至关重要.

研究的目的:

  • 开发和验证用于评估AFM尖端磨损的非破坏性方法.
  • 调查各种扫描参数对AFM尖端磨损的影响.
  • 为优化AFM扫描参数提出指导方针,以尽量减少尖端磨损和提高图像质量.

主要方法:

  • 开发了一种使用利结构的新型尖端磨损评估方法.
  • 在点击模式下使用原子力显微镜 (AFM) 来扫描利的结构.
  • 尖端形态,估计尖端直径和表面粗度都得到了精确的测量.

主要成果:

  • 提出的非破坏性尖端磨损评估方法显示出高可重复性.
  • 扫描参数显著影响AFM尖端磨损,影响估计的尖端直径和表面粗度.
  • 较低的扫描频率,自由振幅和0.2左右的设定点被确定为最小化尖端磨损的最佳.

结论:

  • 该研究提供了一种可靠的方法来监测AFM尖端磨损.
  • 优化扫描参数 (低频,自由幅度,特定设置点) 对于保持尖端完整性至关重要.
  • 实施这些原则可以提高AFM图像质量和测量精度.